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Sept. 25, 1928. 1,685,146

H. F. BECHMAN BREAD WRAPPING MACHINE Filed Feb.6. 192:5 15 Sheets-Sheet 1 n.: i ..2 am

Sept. 25,1928. 1,685,146 H. F. BECHMAN v BREAD WRAPPING MACHINE Filed Feb. 6, 1923 13 Sheets-.Shut 2 U o 13 F i g. .,4 20h o l Sept. 25,` 1928.

H. F. BECHMAN BREAD WRAPPING MACHINE Fi d Feb.6, 1923 15 Sheets-Sheet 5 Sept. 25, 1928. 1

H. F. BECHMAN BREAD WRAPPING MACHINE 1s smwsnm 5 Filed Feb. e, 1923 4` Sept. 25, 1928.

H. F. BECHMAN BREAD WRAPPING MACHINE Filed Feb. 6, 1923 l5 'Sheets-Sheet 6 www .LN 10H x Nod.

@21mm mms.

INVENTOR.

ATTORNEYS. v

Sept. 25, 1928.

H. F. BECHMAN BREAD WRAPPING MACHINE Filed Feb. 6, 1923 15 Sheets-Sheet '7 Sept. 25, 1928.

H. F. BECHMAN BREAD WRAPPING MACHINE Filed Feb. e, 1923 13 Sheets-sheet e .amd

Sept. 25, 192,8.

H. F. BECHMAN BREAD WRAPPING 'HAGHXNE Filed Feb. s, 1923 13 Shets-Sheet 9 AAA INVENTORl ATTORNEYS Spt. 2,5, 1928.

H. F. Bacs-mm BREAD WRAPPING ummm 13 Sheets-Shui 10 Filed Feb. e, 1923 INVENTOR.

Sept. 25, 1928.

' H. F. BECHMAN BREAD WRAPPING MACHINE Filed Feb. s, 1925 13 Shets-Sheet 11 Sept. *25,V 1928.

. 1,685,146 H. F.- Bl-:cHMAN BREAD WRAPPING MACHINE mea Feb. e, 192s l1.5, Sheets-sheet 12 Pig. 25.

Sept. 25, 1928.l

H. F. BECHMAN BREAD WRAPPING MACHINE Filed Feb. 6, 1923 Patented Sept. 125i, fllt-l.

naires s'riifrjssN PATENT CHFFICIE..`

HENRY F.`BECIMAN, OF BATTLE CREEK., MICHIGAN, ASSC'NOR TO BATTLE CREEK BREAD WRAPPINGMACHINE COMPANY, OF BATTLE CREEK, MICHIGAN.

BREAD-WAPPNG IVLA(3l-Illing.`

Application filed February 6, 1923. Serial No. 617,209.

This invention relates to machines for wrapping objects, such as loaves of bread, or other formed articles, or cartons containing articles of various descriptions, and for sealing saine if desired.

The invention includes means for feeding the objects to be wrapped to the wrapping mechanism; mechanism for feeding sheets of paper to the wrapping mechanism; mechanism whereby the sheet of paperwis first wrapped around the object, and then the ends of the wrapper folded; means for sealing the folds of the wrapper if desired;

arid means for dischargingthe completely wrapped object from the machine. The inventioii further includes means whereby a plurality of objects may be simultaneously operated upon and wrapped; and also means whereby objects of 'different sizes may be simultaneously operated upon.

To enable others to fully understand and use the invention l will explain the same as embodied in a machine especially adapted for wrapping loaves of bread or like objects; such machine being illustrated in the accompanying drawings which form part of the specification. In the claims following the description I have summarized the essentials of ther invention, and the novel combinations of parts, and novel details of construction, for all of which protection is deq sired. i

will refer to the object or objects being wrapped as a loaf7 oi' loaves, but it should he understood that the words loaf or loaves are merely descriptive and not definitive, and by suchwords I intend to include not only loaves of bread, and the like. but also all hard or reasonably firm and properly uniformly shaped objects of any material, or practically uniform packages, bundlesfor cartons, of material, which it may be desired to wrap; als it will be ebvious to those skilled in the art that the invention is not limited to merely wrapping of loavesof bread, or the like.

ln said drawings:

Fig. 1 is a side elevation of the machine, part of the delivery being broken away, and various parts being broken away or omitted to prevent confusion. y

Fig. 2 is a View of the discharge end of the delivery mechanism, and forms a continuation or completion of the right hand end of Fig. 1. y

Fig. 3 is an enlarged detail transverse section on the line BH3 Fig. 2.

Figs. 3a and 3" are fragmentary details of the delivery mechanism illustrated in Figs. 2 and 3.

Fig. Ll is an enlarged longitudinal section through Fig. 1.

Fig. 5 is a transverse section on the line 5-*5 Fig. 1.

Fig. 6 is a top plan view of the machine, some parts being omitted for the sake of clearness, and the extended parts of the feed and delivery mechanisms being also omitted.

Fig. 7 is a slightly reduced rear end elevation of Fig. 1.*

Fig. 3 is an enlarged detail view of the adjustable mechanism for driving the feed chains.

Fig. 9 isa detail sectional view on the line 9-9F ig. 8. f

Fig. 10 is a detail face view of the intermittent gears 3g and Llg.

Figs. 11, 12, 13, and 141 are enlarged detail views illustrating the different successive steps of wrapping a loaf, and the different positions assumed bythe movableV folding devices during vsuch wrapping of a loaf. y

Fig. 15 is a detail top plan view of the devices for folding the first bottom flap, and devices for making the first end folds. Fig. 16 is an enlarged detail view showing the relative arrangement ofthe several slides which carry the various.reciprocating tucking devices and loaf holders.

Fig. 17 is an enlarged detail view of the adjustable paper feed devices.

Fig. 18 is a detail view showing part of Fig. 23a is a diagrammatical top plan view of the cutter bar and cutting` knives.

Fig. 2e is a detail of part of the paper cutting` devices.'

Fig. 25 is a top plan view of the means for supporting an infed sheet above the lOf; l

Fig. 26v is aside view of Fig. 25.

Fig. 27 is a detail View of the cam shaft assembly.

Fig. 28 is an enlarged detail view of the devices for supporting` the inner ends of the bars 6. Y

Fig. 29 is a side'view of Fig. 28.

Fig. 30 is a plan view of the device for supporting the outer ends of the bars G.

Fig. 3l is aside elevation of 30.

Fig. 32 is a vdetail section'on the line :n aa Fig.

Fig. 33 is a detail section on the line .sa-a3 ing. 29. l

Fig. 34 (Sheet 9) is an enlarged detail sectional viewxof one ferm of adjustable l loaf Zguides.

Fig. isa plan view of Fig. 3d.

The machine shown in the drawings is adapted to simultaneously wrap two loavesWseparately for each cycle of operation of the machine. rThe mechanisms by which the loaves are wrappedk are substantially duplicated on each side of the inachine7 yand the machine is so constructed that either side may be operated independently, or both sides `simultaneousl i? means for such operation being` provided y a single cam shaft of novel design vand construction hereinafter described'. vThe' folding mechanisms are independently adjustable so that loaves of the saine,y size, or loavefigof different size, may be wrapped on opposite sides of the machine.

Aidescription of the method of and means for feeding. wrapping and delivering one i loaf'will be explained, and, as similar parte are. similarly lettered in the' drawings.r the descriptionof one will enable both te be readily understood.;l the connecting and eperating'` parts beingT hereinafter described. To facilitate an understanding` of the inechanisms lwill explain the same in relation to the several operations as they occur, be

ginning with the placing of the unnf'rapped loaf into the machine. and following saine through the various f' vices to the final delivery wrapped and sealed loaf [n generell.v

ln the particular en'ibodinient of the invention shown in the accompanymg` drawings all the operative parts of the machine are with the side castings7 end castings ln and l, bracket castings lc attached to the front end of the framing, and bracket arms l attached to the outer ends of brackets l, and projecting therefrom a sufficient distance to support the outer portions of the endless conveyor chain supporting table, and also supportingl the devices upon which the wrapped and sealed packages are earried away frein the wralnjingr and safling mechanisms.

Upon the framing;` near one end thereof re mounted two castings lg which support various cani supportingv brackets and folding' mechanism slides hereinafter referred to. Upon the other end of the framing; are mounted two castings l, one for each side of the machine which support various folding members and sealing plates. hereinafter referred'to. The parts of the framing; are securely connected and together form a substantial support for the various operative mechanisms.

On each side of the machine is a paper feeding and cuttingr niechanisn'i, each operated by an independent drive to supply paper or suitalile wrapping` material to the wrapping` mechanisms.

Loaf 'zin-feed.

Each loaf infeedingl mechanism ceniiirises a pair of endless chains 2 (see Fins. Yl to upon which are located at regular intervals conveyorflights 2j. 'lfhese chains are driven by sprockets 2C on shaft 2 (Fig. l). thence to sprocket 2r on shaft 2g, located below sprocket 20. Thence horizontalliY te spi-oehyh et 2h on shaft 2l, taence upward and ouiward to sprocket 2b on shaft 2 (Fig. El), thence to sprocket 2e, the place of beginning. Shaft 2a is liournaled in bearings 2C (see Fig. 2) attached to herir/.entail bars l" which project beyond the outer end of brackets l .v and their outer portions are supported by hangers l, connected to side ln'acliets Td. Bearings 2c are adjustable. to eonlimnsate for wear and stretch of chain 2. The outer portion of aars l may be further supported by braces 1f*x (Figs. l and The bars l are preferalil),7 of :ingle iron set with one lele' of Vthe angle pririertin;l inwardly and the other len' upwardly. thereby formingthe outer boundaries of a trough into which the unwrapped loaves are fed. To prevent a loaf being inserted too far into this trough back plates lm are provided on the inside anule of each infeed or conveyor trough (see Figs. 2 and 3'). lletween the bars 1 are placed plates llZ for supporting' the loaves as they are fed into the machine.

The opposite conveyor chains, 2 are provided with inwardly projecting ronveyor flights 25. adapted to nieve the loaves inwardly toward the loaf-elevator fis a loaf apllll lill) CII Lesaiac preaches the loaf elevator' 5 *it is straightened and properly positioned so as to be moved correctly Aand accurately into position on the Y elevator 5 by means of side guides lk l,

il which are suitablf su aborted in the ma- Loef omweg/or drei/ue. Y

The conveyor' chain may be adjusted to shift the flights 25 fonvard or baclrward to accurately position loaves of varying sizes by any suitable means. in the construction shown (see Figs. l, 7, El, and 9), the inner end of shaft 2d 's journaled on the center frame lf, and at its outer end in a sleeve 3 (see Fig. t), which is rotatably mounted in the adjacent side frame l. Un the inner end of sleeve El is lined an intermittent ninion 3g, and on its outer end is fixed a uisc 3 provided with an annular series of holes 3" (llig. 9).l Sleeve 3 loose on shaft 2d. Beside disc 8 a disc 3c, which slidably keyed on shaft 2d. 'lhe `isc 3C carries a pin l adapted lto engage any one of the series of holes 3" in disc 3"'. Disc 3 held in contact with disc 3f" by means of a lock nut' 3f screwed on the outer end of shaft 2l. Nut 3f can be loosened and dise 3 moved out to disenage pin 3d from disc 3, then disc 3C can bc rotated so as to engage the pin 5l@ with any one of the holes 3" in the disc 3, thus adjustinrbi` the points at which the conveyor flights 2j will stop at each revolution of the shaft 2d. forward or backward, as desiree, until such flights will arcurately center the loaves (of any given; size) on the elevator 5 previous to their being elevated into the foldin mechanisms. Y

lt is desirable that the feed or incoming,` upwrapjied loaves to each wrappinto,` mcchanisin be stopped when a loaf is properly positional on elevator 5, during1 the elevation of such loaf, by the elevator' 5, and until the elevator has returned to its lowered position.4

This may be `accomplished by any suitable means (hereinafter referred to).

fis shown, an intermittent rotary move ment is imjfiarted to the shaft 2 to advance the loaf conveyor by the following` devices:

@n the sleeve 3, preferably on its inner end.l (see Fig. 8) mounted a dwell gear 3g which is adapted to mesh with an opposed dwell rear 4g on a stub shaft au, which is continuously rotated during the operrfition of the machine, and preferably driven hereinafter described, said stub shaft an is journaled in a bracket lll att-ached to one of the side frames 1,'see Fig. 8. The vgear has a cut away dwell or cam portion 3h (see Figs. 8 and l0) which is adapted to register with a corresponding dwell or cam portion all on gear Ltg. While these parts are in register the sleeve 3 and shaft 2d will be stopped, although gear lg continues to rotate and as soon as the dwell l goes out of register with dwell 3 motion is again imparted to the shaft 2d., Consequently the feed chains 2 will be moved when the gear 3g is turned and will stop when the Gear 3f; stops.

its shown, on the outer end of stub shaft 4 is a pinion le which meshes with the pinion et on a stub lO Fig. l) beside the stub shaft 4ta; and a sprocket gear if is attached to the gear 4d, and this gear is driven by a sprocket chain li from a sprocket gear lll on the adjacent end of the main cam shaft 35, hereinafter described, which ram shaft has a continuons motion.

rllhe described mechanism provides for the desired. intermittent movement of the loaf conveyor' 2; and the adjustment above described provides for shifting` the conveyor7 forward or backward7 so that when the conveyor stops the innermost loaf will have been advanced by the related flight 2j into proper position on the elevator to be taken thereby to the folding mechanism.

its shown, the loaf may be arr sted in its innermost position by means of a stop plateal-", hereinafter referred to (see Fig. Ll).

The loaf cleo actor.

By the means described the loaves are separated and successively moved toward and accurately positioned upon the loaf elevator 5 when it is iniits lowermost position (Fig. et). Said elevator is shown as a flat plate mounted on the upper end of a vertically movable bar 5 which is slidably mounted in suitable guides 5l attached to the center frame lf. llVlien the elevator is in its extreme dowmvai'd position its upper surface is adjacent the inner end of the conveyor table 1f of the related loaf conveyor and practically forms a continuation of such guide plate, so that when the conveyor chains 2 stop, the innermost loaf (L) will have been moved by said conveyor means of flights 2j) onto said elevator 5 while the latter is at rest in its lowermost position (itig. Ll). Then while the conveyor' chains are stopped, as above explained, the elevator 5 is raised so to move the innermoet loaf into position to be operated 0n by the wrapping mechanism, which in the machine shown is located above the plane of the conveyor table 1f.

its the loaf rises it is guided and properly positioned on the elevator by means of a guide plate lks preferably attached to the inner ends of the bars l ais indicated in Fig. d, Which guide the opposite ends of the loaf and will properly position saine endwise on the elevator 5. As the loaf passes above the guide plates lks it is further guided laterally in proper position, transi'fersely oli the elevator 5, by means of loaf guides G or 6X arranged as hereinafterexplained.

ln the machine shown the elevator is raised and lowered at the' proper tinie by suitable ineans. iis shown, the elevator bar a is connected by link 5" to one end of a lever 5d attached to a roch .shaft 5f journaled in the 'training` (see l? l, Zl, V7, and 27). rlhis rock shalt has an arni Fg whch is operatively engaged with a earn 5h on the inain cain shaft by which arni 5g is caused to roclr shaft 5f at the proper tiines to raise and lower the elevator 5 and to cause said elcvater to properly dwell in its lowered position. yPreferably cain 5l? is a race cani so as to positively control the niovenientl oi elevator 5 Without resorting to the use of springs, weights, or other niechanii-uns.

Asthe elevator 5 carries the loaf L npward the loaf cornes'into contact with a sheet of paper S d) (previously posiy tioned thereover' as hereinafter described)` and lifts said sheet; and the projecting side portions of Athe sheet are laid down against the sides of the loaf by contacting@` with the loaf guides (6 or 6x) as the loaf is raised. ln the machine shown the loaf guides (S are ai ranged horizontally at opposite sides of the vertical path'oi elevator 5 and parallel with the sides of the loaf carried on such elevator 5, and are located just above the devices Which support the sheet S4 before the loal contacts therewith. The lealL guides Vare preferably adjustable toward er iiroinl each other, to suit the different widths of loaves to ybe wrapped; and they should be so adjusted that wlre'nthe machine is operating and the loaf is fully raised bythe elevator, the sides of the sheet S will depend below opposite sides olil the loaf, as indicated in Fin'. ll.

fis shown in Figs. 2S, to 33, the inner endsv of the bars or rollers 6 are mounted in brackets 6t hung;` on an oppositely threaded rod 6 journaled iny brackets 6v mounted on each' other.

the center iraineof the press, 'lhe rod 6 niaybeturned by a linger piece 5"" to siinultaneously adjust the 'bars (i toward or from The' outer ends of the bars 6 are similarly attached to bracl-iets 6 which are hung on oppositely threaded rods Gm mounted in brackets 6, on the outer side frame. By turning' the'rods Gi and 6l the bars 6 can be simultaneously adjusted laterally toward or freni each other to accord with the width of the loaves to be wrapped.

Instead ot' the rods or rollers 6, l inay yuse curved or rounded bars or plates attached to bars 6l, the ends of which inay be vof the elevator 5.

Lasalle entered in any one of a plurality of vertically disposed notches or slots (l2 in plates (S3 inounted on the side and center nienibers of the traine, at the opposite sides oli the path of the elevator', as shown in Figs. (S, lsl, 35.

and engaged with the proper slots (i2 and then plates Gel replaced. @briously the curved plates (l0 could be mounted on the rods 6l in place oi" the rollers or rods (5; or the rollers or rods (S niight be inounted on the rods 6l .in place oll the curved bars (il). For convenience and siinjfilicity oilt operation l pieiier to use the loat guides shown iu Figs. 28 't0 35i.

Tile loof' holders.

As' the lozrl is raised by the elevator, and as it passes abore bars (i it enters between two opposed loaf holders 'i' and S (Fins. l, l, o', llink) which are operatively carried by dcvices atached to a slide T hereinaiil'ci.' described, and which are relatively yielding so that they can accommodate themselves to the loaves. lllhcn the slide 7 retracted. as shown Fig. 4l, the loaf holders 7 and 8 lie at opposite sides of and slightly in the path of the leal! L when it is raised by elevator 5; and as the loaf rises it enters between said loall holders 7 and 8, causing` thciu lo slightly yieldingly separate, and slide down the portions ot the wrapper S at opposite sides oli the leal and asslnne the positions shown in Fig. ll.

The loaf holders "l and S are preferably adjustable to and from each other, as hereinafter described, so that they niay be set to properly grasp between thcni Vthe lout lo bo wrapped. For thin loaves the plaies 'i' and 8 should be adjusted so that when the slide is retracted as in Figi'. Ll, the clamps will be about equally spaced from the center line lli thiclior loaves are to be wrapped the clanips i' and S should be adjusted a little Yfurther apart, to correspond with the widths oi? such loaves when centered upon the elevator' 5.

'lhe leal" holder 7 .is preferably pi votally mounted on a bracket T (see Figs. Ll, and ll) which is adjust-ably attached to the inner ond of the slide '2"2 Said slide 7" is guided in horizontally disposed ways lc mounted on castings 1lj at the end olz the nniin traine adjacent the cani shaft 35. Said slide Tb is reciprocated at the proper time, as hereinaiter described.

rlhe loail holder 8 is preferably pivotally Lili mounted on the free ends of arms 8 (see Figs. 4i, 6 and ll-M) which are pivoted at 8d to a bracket 8m which is adjiiistably attached to the free end of o, swingable cani lever 8, which piroted at t to lugs 7d on slide 7. The lever 8 is provided with a cross bar 8e, 'which may be foiiiied integral therewith, and the ends of this cross bar engage with cani slots 9" formed iii the opposite faces of opposed ros l) arranged at opposite sides of and :1li: 'e t ie reciprocallingl slide 7 b, as indicated in Figs. 5 and G.

The support 7" for io f holderl 7 practically uiiyielding', brit to coii'ipensate for slight variations .in width of leaves the arms 8 siipporting` loaf holder 8 are preferably yieldingly held in gripping position. As shown, the ai-nis 8 have an extension El above their pivot, which extension is connected to a spring); rod 8g slidable through a swivel stud 8 mounted on bracket 8m. A spring- Si is interposed between le i swivel stud 8h and an adjustable collar Si on the rod fl and normally tends to hold the loaf holder 8 yieldingly towards loaf holder 7.

The slide 7l should be in its oiiterii'lost liosition when and While the elevator raises tlic loafli as above described, and as the elevator raises the loaf to `its highest point of travel it is entered. between the loaf holders 7 and 8 and lirinly held thereby in accurate position for the next operation on the sheet, and while the elevator 5 is lowered to receive the next incomingl loaf.

T/'ie first folds.

After the loaf has been raised to the position shown in Fig. ll and While it is held by and between the loaf holders 7 and El, an d after the elevator 5 has been lowered sallicieiitly out of the Way, a tuclrer blade l0 (arranged to operate l'eloiv the slide 7l and holders 7 and 8, see Fig. e) is moved toifard and under the loaf and folds or turns the adjacent depending1 portion of the sheet S (see F ig. 1l) beneath the loaf as indicated in Fig. i9, while the loaf remains stationary. Blade l() then dwells andsupports the loaf While the first end folds are made and until tlie partly wrapped loaf is moved off of the blade as hereinafter explained.

shown (see F Il and ll) the blade l0 is attached to a slide l0 which is mounted to reciprocate in suitable guides attached to east-ings le' supported on the main fraiiie. Said slide lOh connected by an adjustable link l0@ to the upper end of a cain lever l0 Figs. Lvl, l5, lo) which lever is ,iivoted on transverse shaft l0 jonrnaled in the inain frame l and has a pin or roller l0 ein a race cam 10g on the inain cani shaft 35, (Figs 7 and 27) and eain l0g is so shaped as to impart the desired reciproeatory movements and dwells to the tucker blade l() at the proper tiine duringeach revolution of the cani shaft.

The second fold.

After the tucker blade l() has folded the first bottoni flap of the sheet under the bottom of the loaf and While the loaf rests on said blade the first end folds of the Wrapper are made by means of end folder blades 11, which blades are arranged at opposite ends of loaf holder 7 and operate above the tucker blade l0. Said blades ll` are preferably angle orchannel shape in section and are adapted to engage the side portions of sheet S adjacent holder 7 and projecting beyond the opposite ends of loaf and to fold the saine inwardly as indicated in Fig. 12. These end folder blades ll are preferably adjustable toward and from each other. As

shown, they are connected by bolts ll (see Figs. l5 and 16) to a bai' 1lb which is attached to the reciprocating` slide llc, said bolts engaging slots lls in bai' 1lb, so that the blades ll can be adjusted to or from each other to suit different lengthsof loaves to be wrapped. The slide ll is connected by a liiil; ll1 to the upper end of a cani lever llf which is pivoted on the transverse shaft l0e iournaled in the main fraine and provided With a pin or roller lig engaging a race cain 11h on the Cain shaft 35, (Figs. l, 7, and 27) said cani being so shaped as to cause reciprocation ot side folders ll at and in the proper time and manner to cause the saine to fold the opiiosite end portions of the side of the sheet adjacent holder 7 after the first bottoni fold has been made by blade l0, and then to hold said end folds in position and nieve on with the loaf until theopposite bottoni and side end folds are made, as hereinafter explained.

The slide 7b and holders 7 and 8 remain stationary While the blades l0 operate to inalie the first bottoni fold and blades ll operate to inake the first end folds, as above described (Fig. l2). But, after the tucker blade l0 and the first end folders ll have respectively inade the first bottoni. and end folds, as described, theslide 7b is moved inwardly, thereby causing holders 7 alud 8 to move the partly Wrapped loaf:I oft the tucher blade l0 and onto a foldiriggr plate 12,*whicli is mounted on the castings l, and lies ata-bout the saine level as the tucker blade l() (see Fig. 4f).

The inner edge of the folding table 12 lies slightly above the adjacent bar or roller 6, and as the partially Wrapped loaf is moved oft the tucker blade l0 and onto the folding; table l2 by the forward movement of slide 7h (the folders 11 being also simultaneously moved forward with the loaf) the lower portion of the inner side of the sheet S ad los lli;

:Illu

jacent holder 8 is folded up beneath the bottom of the loaf by contact with the edge of folding table 12, thus completing the bottom folds as shown in 13.

As the loaf. is thus moved outward olf the plate 10 and onto folder table 12, and after the folder table 12 has begun to fold the seeondbottom Hap beneath the loaf, the holder S is raised upwardly and away from the loaf by the engagement of the ends of `bar 8 with the inclined portions 9x of the camways 9a; and by the time the second bottom flap is completed the holder 8 has been raised above thetop of the loaf andremains Y raised out of 'the way during the'further inward movement of the slide 7, and during the remaining folding operations on the sheet' S.

' The fourth fold.

The aforesaid outward movement of thel loaf (while being held between folders 11 and moved outward by loaf holder 7 actuated by slide 7b) brings the inner end portions of the sides of the wrapper S project ing beyond the ends of the loaf into engagcment with the second end folders 13.

The second end folders 13 are shown as segmental metallic blades which are sup ported by brackets 13 attached to the folding 'table v12 (see Figs. 4 and 11-14), said bladesV being arranged at opposite sides of table 12 and near the inner or foldingl edge thereof (Fig. 6). The tuclier blades 13 engage the unfolded side portions of the wrap-- per S projecting beyond theends of the loaf and form the second end folds therein (see Fig. 13) as the loaf is advanced over folding` table 12 and between said blades 13. These second end folds overlie the first end folds and the end folder blades 13 also serve to hold the overlapped side end folds while the'lower and top end folds are being made. The end folders 11 are advanced with the loaf until they nearly contact with folders 13 (see Figs. 12 and 13) and then dwell until the side end folds are completed, then they are retracted before another loaf is raised to wrapping position.

l The #fr fold.

The lower end folds are next made by means of folding blades 14 attached to, opposite sides of folding table 12 and in alignment with the folders 13. The operative or forward ends of folders 1.41 are curved upwardly and outwardly, as shown at 1st, and `the adjacent ends of folders 18 are similarlv curved and the space between the two curved edges of the adjacent folder 13 and blade 111 form openings or slots 14, which are traversed by the remainingprojecting` unfolded bottom portions ofthe wrapper S, as the loaf isrmoved outward. u

kAs the loaf is advanced outwardlyT over nessus the folding` table 12 and past the folders 13 the projectiirelower portions of thc partly folded wrapper come into contact with the lower curved edges of the folding blades lit and are raised up by the upwardly curved edges of said blades in slot 1l, and are folded thereby, the bottom end fold portions turning upwardly through .slots 1l until 'the bottom end folds are completely made,

in Figs. 13 and 14E.

After thc partially wrapped loaf has been advanced by the outward movement of slide 7b onto the folding table 12 and past the end folders 13 and the opposite side end folds and bottom end folds have been made :is above described the next folds are made by folding blades 15, while the loaf is further movedY outwardly. rflic folding blades 1li are attached to the inner cnds of thc levers 1F) (Figs. 1, 1., 5, 111141) which are fulcrumcd at 15C on studs 7i projecting` from the slide 7" and located in advance of the studs 7 on which the levers 5l" are pivoted, The levers 15" extend beyond their pivots 15 and their outer ends may be provided with pins or rollers 15, which engage thc same cam slots 9 in braclnts S) that are engaged by rollers 8 on the levers 8".

The cam slots 9 operate both lcvcrs S and 15" andy are so formed that near the in ward end of the movement of slide T" thc rollers 15I engage the inclined parts El" of the cam `grooves and cause thc levers 15 to roch and lower the folding blades 15, and as the .latter lower they engage and fold down the top portions of the wrapper projecting beyond the ends of the loaf, thus making the final top end folds. Those final top end folds are made after the loaf has passed thc folding blades 18, and after the bottom end, folds have been made by thc action of the folding blades 141, as above described; and are made as the loaf is moved between said blades 14C to and between the fold shields 16.

Preferably the blades 15 are :uljustably attached to the levers 15l so that said folder blades may be adjusted toward or from cach other to suit the varying lengths of loaves to be wrapped. The folders 'il and 14C are also preferably adjustable toward or from each other to suit different lengths of loaves to be wrapped, said iuljustmcnt bring made as hereinafter described.

Before the final top end folds are made, and before the folding` blades 15 begin to move downward, the levers 8 are lifted by their rollers Se riding up on the inclined portions 9X of cams 9, and raise loaf holder 8 'to the position indicated in full lines in Figs. 13 and 14, and remain in this position while the folders 15 are beingoperated during the further 'inward movement of slide 7" Sid 

